DE1573919A1 - Device for measuring the hardness of test specimens made of rubber or the like. - Google Patents

Description

PATENT LAWYERS ^V '

DIPL.-INQ. FRITZ THIELEKE DR.-INQ. RUDOLF DÖRING DR. JOACHIM FRICKE

BRAUNSCHWEIG - MUNICH

11 295

United States Rubber Company, 1230 Avenue of the Americas, New York 20, NY, US ₀ A ₀

Device for measuring the hardness of test objects

Rubber odedgl «,

The invention relates to a device for measuring the hardness of test pieces made of rubber or the like, with the aid of a Hardness measuring device, which has a pressure foot, which can be moved up and down in relation to a support for the test specimen, for penetration in the surface of the test piece and a measuring device for measuring and displaying the penetration depth «

If in the following the expression rubber or the like. used is understood to mean natural and synthetic rubber or other plastic materials, generally be subjected to an endurance test.

The method D-676-59T developed by the American company for test maaohinen for the identification of rubber with the aid of a hardness measuring device requires that the pressure be applied over a surface of the test object

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is applied with the help of a blunt point or a press foot. In earlier instruments, the pressure was applied with the help of a manual release of a press foot loaded with a load weight and through the penetration of the press foot below the level of the surface of the test piece or used as a measure of the hardness of the rubber. This hardness was displayed on a pointer, the attached to the hardness tester _e

It was found that the test results that are obtained from an actuated by hand durometer vary in wide extent depending on the individual operator, "This applies to different readings by the same operator, as well as readings of other Bedienungepersonen because an operator does not always use the same technique to release the presser foot.

The penetration into the surface of the test specimen depends on the following four factors: 1) the properties of the surface and the near-surface area of the test specimen, 2) the total energy of the presser foot at the moment of contact, 3) the shape of the presser foot and 4) the Length of time over which the pressure is applied (both the current speed and the total duration).

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Obviously, it is desirable to uniformly control as many of the factors mentioned as possible in order to achieve a to achieve uniformly accurate testing and uniformly accurate results. With the earlier manual actuation, only the shape of the presser foot was precisely determined from the start

It is therefore an object of the invention to provide a device of the type mentioned at the beginning designated type in such a way that one obtains a much more uniform and more accurate measurement and regardless of the skill or disposition of the operator, if possible all four of the above Factors are controlled with the same accuracy "

This object is achieved according to the invention by cooperating Cam and motion take-off members, one of which is on the up and down support is rotatably arranged for the pressure foot and the other of a base supporting the support for the test object, as well as by a drive device for one of the two links.

By rotating one of these links, the support device for the Druokfuß opposite the base moved up and down and in a precisely vorbeetimmbaren manner

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and at a predeterminable speed, the release of the load causing the measurement always being the same This is done »In this way, a very uniform repeatability of the measurement is guaranteed.

Advantageously, the cam member is provided with three control loops over its control range, which are used to generate three test strokes of the presser foot during one full revolution of the cam member to determine an exact mean value _o

The invention is explained in more detail below with reference to schematic drawings of an exemplary embodiment.

Fig. 1 is a perspective view of the improved Training and arrangement of a hardness testing device according to the present invention}

Fig. 2 is a perspective view similar to that of Fig. 1, however, shows the device according to Figure 1 from the opposite side as Figure 1, while

Figure 3 is an end view of the cam and motion pickup device according to the invention.

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The drawings show that a hardness measuring device 10 is provided with a press foot 11 according to Figure 2, which is attached to a support 12 with a screw 13. The hardness measuring device 10 has an indicating needle H for indicating the Penetration depth of the press foot 11 in relation to the surface of the test object on · The reproduced hardness tester is a standard Shore hardness meter, for example of the usual training and for example in the Bulletin R-13 from Shore Instrument and Manufacturing Company, New York. Even if the present invention, for example, with such a Shore hardness tester Any other device based on the principle of surface penetration can also be used works with the help of a press foot of solid shape under Sohwerkraftdruok. The use of such another Hardness measuring device is within the scope of the present invention.

The support 12 is attached to an upright column 15 which serves to support a weight 16 which is attached to the column 17 by means of screw jacks. The column 15 is supported in the vertical position by a support device 18 which is slidably mounted on a further column 19. The foot of the column 19 is attached to a substantially horizontal plate 20, with an anvil 21 extending outwardly from the base of the column 19 to receive the specimen and support it directly below the press foot 11.

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The hardness measuring device 10 and the entire support device are in the vertical direction on the column 19 in the direction of the The test specimen supported by the anvil 21 or earlier hardness testing devices which can be moved away from it were designed so that it was necessary for the operator to loosen the arrangement by hand in order to bring it into contact with the test object » It was possible for different operators to do that To solve and set up the arrangement in various ways, so that wide-spread measurement results were obtained.

The present invention provides a powered device before, which is assigned to the arrangement described above and which ensures that the lifting and lowering of the measuring device 10 takes place uniformly in the direction of the test object or away from it, and the length of time with which the Press foot 11 is in contact with the test object, uniformly and can be precisely controlled.

From FIGS. 1 and 2 it can be seen that on the support device a stabilizing arm 22 is attached by means of screw caps 23 · A movement take-off member 24 is rotatable on the stabilizing arm 22 attached by means of a shaft 2J, which is located between Holders 26 and 27 extended

To achieve the vertical movement of the Härtemeßeinrichtung toward the test object to and from dieiem away su, a 28 Nooken iet provided · Sine bevoriugte Aulführung tferm a "

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such cam 28 is shown in Fig. 3. The cam is like this trained that he touches the hardness tester with every revolution 10 three times lowers and raises again «This is achieved by arranging three loops 29, 30 and 31 on the circumferential surface of the cam "This construction allows the operator to place a test specimen on the anvil 21 during the To put on the breakpoint, which is realized by the relatively large cam loop 31. While the loop 31 is in contact with the motion sensing member 24, the operator has sufficient time to place the test specimen on the anvil to align precisely. The further rotation of the cam 28 leads for lowering and raising the measuring device 10 three times during a single revolution. This allows it that the operator can take three individual readings and thereby determine an accurate average value can·

The cam 28 is attached to a shaft 32 with a locking screw 33 · The shaft 32 is driven by an electric motor 34 Driven by a suitable set of gears which are arranged in the gear box 35. A common switch 36 can be used to monitor the motor 34 turning on and off.

In addition to the vertical movement caused by the motion decrease link 24 is passed on from the cam 28, occurs

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also a lateral or rotating movement. The tendency of the stabilizing arm 22 to rotate about the column 29 becomes compensated by the arrangement of a guide channel 39 · one Extension of the stabilizing arm 22 is arranged between vertical uprights 40 and 41, which the channel 39 The uprights 40 and 41 are formed on an A-shaped frame

Fixed 42 wirdo in turn supported on the plate 20 W Although the guide channel described above is very effective for preventing a rotational movement of the device is perceived by the column 19 as, other means may be used to fulfill this function ,.

The operation of the improved motorized test equipment can be initiated when the loop 31 is in contact with the movement pick-up member 24, as illustrated in FIG ι egg? vertical position at a distance from the support 21 “A Sample 43 is properly aligned on top of anvil 21 with continued rotational movement of the Cam 28 causes the hardness meter 10 to lower itself into contact with the test piece 43, the movement acceptance member 24 descends into the valley next to loop 31. The press foot 11 penetrates the upper surface of the test specimen

43 and the penetration depth can be determined by the operator can be read on the indicator needle 14. Continued rotation of the cam 28 causes the hardness meter 10 again

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to rise in the vertical direction when the loop 29 came into contact with the motion take-off member 24 three desired readings can thus be obtained when the cam 28 makes a full revolution and the motion pickup member 24 moved into the three recessed sections between the separate loops 29, 30 and 31. The speed of rotation of the cam 28 is not critical. However, the overall speed of the process is limited by the time that is required so that the operator can place the test specimen precisely aligned, as well as the time that is required that the press foot the desired number of Lifts up and down.

It can be seen that the new instrument significantly improves the accuracy of the standard hardness test and in the at the same time reduces the time required to carry out this test «

Due to the new training, three of the factors mentioned at the beginning are controlled very precisely, which until then have been influenced by manual operation. The energy and the speed of application of the presser foot to the test piece are determined by the release by the cam and by the total dead time of the application on the test piece, which rest time is also controlled by the cam. Estimates of what was previously involved in the application of the foot lake and the duration of the exposure time are at the

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- ίο -

completely avoided new establishment.

It will be seen that a number of modifications are possible to the new device. In particular, for example the cam and the motion take-off member are interchanged in position with each other, the cam being rotatable is mounted on the arm 22 and is driven by a motor also mounted on this. Arm is mounted » Alternatively, in a similar arrangement, the movement sabnahmegli ed by a fixedly arranged on the base Motor driven while the cam is freely rotatably arranged on the arm 22 · In this case must Cam and motion take-off member to be toothed or have sufficient frictional engagement with one another to secure ensure that the cam moves without slippage.

Expectations

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Claims (4)

Expectations 1e device for measuring the hardness of test objects Rubber or the like. with the help of a hardness measuring device, which can be moved up and down in relation to a support for the test object Pressure foot for penetrating the surface of the test object and a measuring device for measuring and displaying the depth of penetration characterized by cooperating cam and motion take-off members (24, 28), one of which on the support device (18) that can be moved up and down for printing « foot (11) and the other on a support (21) for the Test specimen supporting base (20) is rotatably arranged, and by a drive device (32) and (35) for the one (28) of the two links (24, 28). 2. Device according to claim 1, characterized in that the cam member (28) over its control scope has three control loops (29, 30, 3t) for generating three test strokes of the presser foot during one full revolution * 3. Device according to claim 2, characterized in that g e k e η η that the circumferential length of a radially projecting control sole is much greater than that of the two other control loops (29, 30) is 00985-1 / 041 1 4. Device according to any one of claims 1 "to 3, characterized in that the support device (18) for the pressure foot is slidably guided on a vertical column (19) which is supported on the base (20) and 'on the support device compensation or stabilization arm (22) is mounted in a rotational movement of the support means (18) perpendicular to the column (19) preventing W guide (39 to 42) engages " 5ο Device according to any one of the preceding claims, characterized in that the cam member (28) can be driven by a motor (34) arranged on the base (20), while the movement pick-up member (24) is on the support device (18) or on the one with these connected equalizing arm (22) is mounted _o 5 / Z. 009851/041 1 Empty books